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An unexpected early record of Mictomys Vetus (Arvicolinae, Rodentia) from the Blancan (Pliocene) Glenns Ferry Formation, Hagerman Fossil Beds National Monument, Idaho

Published online by Cambridge University Press:  20 May 2016

Dennis R. Ruez Jr.
Affiliation:
1Department of Geological Sciences, Jackson School of Geosciences, University of Texas, Austin 78712-0254; current address: Department of Geology and Geography, 210 Petrie Hall, Auburn University, Auburn, Alabama 36849-5305,
Philip A. Gensler
Affiliation:
2Hagerman Fossil Beds National Monument, 221 North State Street, PO Box 570, Hagerman, Idaho 83332,

Extract

The cooling during the Pliocene that preceded major continental glaciation in North America is recorded by thick fluvial and lacustrine sequences at Hagerman Fossil Beds National Monument (HAFO) in southcentral Idaho (McDonald et al., 1996). Fossiliferous beds at HAFO occur within the nearly 200 m of exposed Glenns Ferry Formation west of the Snake River. This formation extends from southwestern Idaho into easternmost Oregon (Malde and Powers, 1962). The Glenns Ferry Formation within HAFO contains hundreds of localities that are within the Blancan North American Land Mammal Age. Collection of specimens from these localities since the late 1920s has resulted in large repositories of fossils currently housed, in part, at the United States National Museum, the University of Michigan Museum of Paleontology (UMMP), and the Idaho Museum of Natural History (IMNH); additionally, smaller collections were accumulated by other museums (McDonald et al., 1996). Today the paleontological resources of HAFO are stewarded by the National Park Service. In spite of the extensive previous collections, significant new discoveries are still being made at HAFO.

Type
Paleontological Notes
Copyright
Copyright © The Paleontological Society 

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References

Albright, L. B. III. 1999. Biostratigraphy and vertebrate paleontology of the San Timoteo Badlands, southern California. University of California Publications, Geological Sciences, 144:1121.Google Scholar
Barnosky, A. D. 1985. Late Blancan (Pliocene) microtine rodents from Jackson Hole, Wyoming: Biostratigraphy and biogeography. Journal of Vertebrate Paleontology, 5:255271.CrossRefGoogle Scholar
Bell, C. J. 2000. Biochronology of North American microtine rodents, p. 379406. In Noller, J. S., Sowers, J. M., and Lettis, W. R. (eds.), Quaternary Geochronology: Methods and Applications. AGU Reference Shelf 4. American Geophysical Union, Washington, D.C.Google Scholar
Bell, C. J. and Barnosky, A. D. 2000. The microtine rodents from the Pit locality in Porcupine Cave, Park County, Colorado. Annals of Carnegie Museum, 69:93134.Google Scholar
Bell, C. J., Lundelius, E. L. Jr., Barnosky, A. D., Graham, R. W., Lindsay, E. H., Ruez, D. R. Jr., Semken, H. A. Jr., Webb, S. D., and Zakrzewski, R. J. 2004a. The Blancan, Irvingtonian, and Rancholabrean Mammal Ages, p. 232314. In Woodburne, M. O. (ed.), Late Cretaceous and Cenozoic Mammals of North America: Biostratigraphy and Geochronology. Columbia University Press, New York.Google Scholar
Bell, C. J., Repenning, C. A., and Barnosky, A. D. 2004b. Arvicoline rodents from Porcupine Cave: Identification, spatial distribution, taxonomic assemblages, and biochronological significance, p. 207263. In Barnosky, A. D. (ed.), Biodiversity Response to Climatic Change in the Middle Pleistocene: The Porcupine Cave Fauna from Colorado. University of California Press, Berkeley.Google Scholar
Berggren, W. A., Kent, D. V., Swisher, C. C. III, and Aubry, M.-P. 1995. A revised Cenozoic geochronology and chronostratigraphy, p. 129212. In Berggren, W. A., Kent, D. V., Aubry, M.-P., and Hardenbols, J. (eds.), Geochronology, Time Scales and Global Stratigraphic Correlation. SEPM (Society for Sedimentary Geology) Special Publication 54.Google Scholar
Bowdich, T. E. 1821. An analysis of the natural classification of Mammalia for the use of students and travelers. J. Smith, Paris, France, 115 p.Google Scholar
Cassiliano, M. L. 1997. Taphonomy of mammalian fossils across the Blancan-Irvingtonian boundary: Palm Spring Formation, Anza-Borrego Desert of southern California. Palaeogeography, Palaeoclimatology, Palaeoecology, 129:81108.Google Scholar
Cassiliano, M. L. 1999. Biostratigraphy of Blancan and Irvingtonian mammals in the Fish Creek-Vallecito Creek section, southern California, and a review of the Blancan-Irvingtonian boundary. Journal of Vertebrate Paleontology, 19:169186.CrossRefGoogle Scholar
Conrad, G. S. 1980. The biostratigraphy and mammalian paleontology of the Glenns Ferry Formation from Hammet to Oreana, Idaho. Unpublished Ph.D. dissertation, Idaho State University, Pocatello, 334 p.Google Scholar
Eshelman, R. E. 1975. Geology and paleontology of the Pleistocene (late Blancan) White Rock fauna from north-central Kansas. Claude W. Hibbard Memorial Volume 4. University of Michigan, The Museum of Paleontology Papers on Paleontology, Number 13, 60 p.Google Scholar
Fejfar, O. and Repenning, C. A. 1998. The ancestors of the lemmings (Lemmini, Arvicolinae, Cricetidae, Rodentia) in the early Pliocene of Wölfersheim near Frankfurt am Main, Germany. Senckenbergiana Lethaea, 77: 161193.Google Scholar
Galusha, T., Johnson, N. M., Lindsay, E. H., Opdyke, N. D., and Tedford, R. H. 1984. Biostratigraphy and magnetostratigraphy, late Pliocene rocks, 111 Ranch, Arizona. Geological Society of America Bulletin, 95: 714722.Google Scholar
Gray, J. E. 1821. On the natural arrangement of vertebrose animals. London Medical Repository, 15:296310.Google Scholar
Hart, W. K. and Brueseke, M. E. 1999. Analysis and dating of volcanic horizons from Hagerman Fossil Beds National Monument and a revised interpretation of eastern Glenns Ferry Formation chronostratigraphy. National Park Service Report 1443-PX9608-97-003, 37 p.Google Scholar
Hibbard, C. W. 1941. The Borchers fauna, a new Pleistocene interglacial fauna from Meade County, Kansas. Kansas Geological Survey Bulletin, 38: 197220.Google Scholar
Hibbard, C. W. 1949. Pleistocene vertebrate paleontology in North America. Bulletin of the Geological Society of America, 60:14171428.Google Scholar
Hibbard, C. W. 1954. A new Synaptomys, an addition to the Borchers interglacial (Yarmouth?) fauna. Journal of Mammalogy, 35:249252.Google Scholar
Hibbard, C. W. 1956. Vertebrate fossils from the Meade Formation of southwestern Kansas. Papers of the Michigan Academy of Science, Arts, and Letters, 41:145203.Google Scholar
Hibbard, C. W. 1959. Late Cenozoic microtine rodents from Wyoming and Idaho. Papers of the Michigan Academy of Science, Arts, and Letters, 44: 340.Google Scholar
Illiger, J. K. W. 1811. Prodromus Systematis Mammalium et Avium: Additis Terminis Zoographicis Utriusque Classis, Eorumque Versione Germanica. Salfeld, Berlin, Germany, 301 p.Google Scholar
Koenigswald, W. V. and Martin, L. D. 1984. Revision of the fossil and recent Lemminae (Rodentia, Mammalia), p. 122137. In Mengel, R. M. (ed.), Papers in Vertebrate Paleontology Honoring Robert Warren Wilson. Carnegie Museum of Natural History Special Publication 9.Google Scholar
Leeman, W. P. 1982. Development of the Snake River Plain-Yellowstone Plateau Province, Idaho and Wyoming: An overview and petrologic model, p. 155177. In Bonnichsen, B. and Breckenridge, R. M. (eds.), Cenozoic Geology of Idaho. Idaho Bureau of Mines and Geology Bulletin 26.Google Scholar
Malde, H. E. and Powers, H. A. 1962. Upper Cenozoic stratigraphy of western Snake River Plain, Idaho. Geological Survey of America Bulletin, 73:11971219.Google Scholar
Martin, L. D. 1979. The biostratigraphy of arvicoline rodents in North America. Transactions of the Nebraska Academy of Sciences, 7:91100.Google Scholar
Martin, L. D. and Schultz, C. B. 1985. Small mammals of the Seneca and Sappa local faunas (post-Ogallala of Nebraska), p. 163179. In Dort, W. Jr. (ed.), Institute for Tertiary-Quaternary Studies, TER-QUA Symposium Series Volume 1. Nebraska Academy of Sciences, Inc., Lincoln, Nebraska.Google Scholar
Martin, R. A., Duobonis-Gray, L., and Crockett, C. P. 2003. A new species of early Pleistocene Synaptomys (Mammalia, Rodentia) from Florida, and its relevance to southern bog lemming origins. Journal of Vertebrate Paletontology, 23:917936.Google Scholar
Mcdonald, G. H. [sic], Link, P. K., and Lee, D. E. 1996. An overview of the geology and paleontology of the Pliocene Glenns Ferry Formation, Hagerman Fossil Beds National Monument. Northwest Geology, 26:1645.Google Scholar
Mezzabotta, C. 1997. Cricetid and arvicolid rodents of the California Wash local fauna, late Blancan, of the San Pedro Valley, Arizona. Palaeovertebrata, 26:189218.Google Scholar
Neville, C., Opdyke, N. D., Lindsay, E. H., and Johnson, N. M. 1979. Magnetic stratigraphy of Pliocene deposits of the Glenns Ferry Formation, Idaho, and its implications for North American mammalian biostratigraphy. American Journal of Science, 279:503526.Google Scholar
Repenning, C. A. 1980. Faunal exchanges between Siberia and North America. Canadian Journal of Anthropology, 1:3744.Google Scholar
Repenning, C. A. 1987. Biochronology of the microtine rodents of the United States, p. 236268. In Woodburne, M. O. (ed.), Cenozoic Mammals of North America: Geochronology and Biostratigraphy. University of California Press, Berkeley.Google Scholar
Repenning, C. A. 1992. Allophaiomys and the age of the Olyor Suite, Krestovka Sections, Yakutia. United States Geological Survey Bulletin 2037, 98 p.Google Scholar
Repenning, C. A. 1998. North American dispersal routes: Rapid evolution and dispersal constrain precise biochronology, p. 3978. In Tomida, Y., Flynn, L. J., and Jacobs, L. L. (eds.), Advances in Vertebrate Paleontology and Geochronology. National Science Museum Monograph 14.Google Scholar
Repenning, C. A. 2003. Mimomys in North America, p. 469512. In Flynn, L. J. (ed.), Vertebrate Fossils and Their Context: Contributions in Honor of Richard H. Tedford. Bulletin of the American Museum of Natural History 279.Google Scholar
Repenning, C. A. and Brouwers, E. M. 1992. Late Pliocene-early Pleistocene ecologic changes in the Arctic Ocean borderland. United States Geological Survey Bulletin 2036, 37 p.Google Scholar
Repenning, C. A. and Grady, F. 1988. The microtine rodents of the Cheetah Room Fauna, Hamilton Cave, West Virginia, and the spontaneous origin of Synaptomys. United States Geological Survey Bulletin 1853, 32 p.Google Scholar
Repenning, C. A., Brouwers, E. M., Carter, L. D., Marincovich, L. Jr., and Ager, T. A. 1987. The Beringian ancestry of Phenacomys (Rodentia: Cricetidae) and the beginning of the modern Arctic Ocean borderland biota. United States Geological Survey Bulletin 1687, 31 p.Google Scholar
Repenning, C. A., Fejfar, O., and Heinrich, W.-D. 1990. Arvicolid rodent biochronology of the northern hemisphere, p. 385417. In Fejfar, O. and Heinrich, W.-D. (eds.), International Symposium: Evolution, Phylogeny and Biostratigraphy of Arvicolids (Rodentia, Mammalia). Rohanov, Czechoslovakia, May 1987. Geological Survey, Prague, Czechoslovakia.Google Scholar
Repenning, C. A., Weasma, T. R., and Scott, G. R. 1995. The early Pleistocene (latest Blancan-earliest Irvingtonian) Froman Ferry fauna and history of the Glenns Ferry Formation, southwestern Idaho. United States Geologic Survey Bulletin 2105, 86 p.Google Scholar
Sankey, J. T. 1990. Late Blancan vertebrates and magnetostratigraphy from the Upper Glenns Ferry Formation, southwestern Idaho, p. 39. In Reynolds, J. (compiler), Abstracts of Proceedings, 1990 Mojave Desert Quaternary Research Symposium, San Bernardino County Museum, Redlands, California, p. 19-40. In San Bernardino County Museum Association Quarterly, 37(1).Google Scholar
Sankey, J. T. 1991. A late Blancan-early Irvingtonian vertebrate fauna and magnetostratigraphy from the Upper Glenns Ferry and Lower Bruneau formations, near Murphy, southwestern Idaho. Unpublished M.S. thesis, Northern Arizona University, Flagstaff, 206 p.Google Scholar
Sankey, J. T. 1996. Vertebrate paleontology and magnetostratigraphy of the Upper Glenns Ferry (latest Pliocene) and lower Bruneau (Pliocene-Pleistocene) formations near Murphy, southwestern Idaho. Journal of the Idaho Academy of Science, 32:7188.Google Scholar
Sankey, J. T. 2002. Vertebrate paleontology and magnetostratigraphy of the Glenns Ferry and Bruneau Formations (Plio-Pleistocene), near Murphy, southwestern Idaho, p. 52100. In Akersten, W. A., Thompson, M. E., Meldrum, D. J., Rapp, R. A., and McDonald, H. G. (eds.), And Whereas … Papers on the Vertebrate Paleontology of Idaho Honoring John A. White. Volume 2. Idaho Museum of Natural History Occasional Paper 37.Google Scholar
Shotwell, J. A. 1970. Pliocene mammals of southeast Oregon and adjacent Idaho. Bulletin 17 of the Museum of Natural History, University of Oregon, 103 p.Google Scholar
Sukhov, V. P. 1976. Ostatki lemmingov v pliotsenovykh otlosheniyakh Bashkirii, p. 117121. In Gromov, I. M. (ed.), Evolyutsiya Gryzunov I Istoriya Formirovaniya ikh Sovremennoy Fauny. Trudy Zoologicheskogo Instituta, 66. (In Russian)Google Scholar
Tomida, Y. 1987. Small mammal fossils and correlation of continental deposits, Safford and Duncan basins, Arizona, USA. National Science Museum Monograph 3, 141 p.Google Scholar
Wilson, R. W. 1933. A rodent fauna from later Cenozoic beds of southwestern Idaho, p. 117135. In Contributions to Paleontology. Carnegie Institution of Washington Publication 440.Google Scholar
Zakrzewski, R. J. 1972. Fossil microtines from late Cenozoic deposits in the Anza-Borrego desert, California, with the description of a new subgenus of Synaptomys. Natural History Museum of Los Angeles County Contributions in Science 221, 12 p.Google Scholar